Calculate all properties of a sphere: radius, diameter, volume, surface area, great circle area, and great circle circumference from any single known value.
A sphere is the set of all points in three-dimensional space that are equidistant from a single center point. It is the most symmetric three-dimensional shape and appears throughout nature — from soap bubbles and water droplets to planets and stars. The sphere encloses the maximum volume for a given surface area, a property that makes it fundamental in physics and engineering.
This comprehensive sphere calculator lets you enter any one known quantity — radius, diameter, volume, surface area, or great circle circumference — and instantly computes every other property. Results include the radius, diameter, volume, total surface area, the area of the great circle (the largest cross-section through the center), and the great circle circumference.
Key relationships are elegant: volume is (4/3)πr³, surface area is exactly four times the great circle area (4πr²), and the great circle circumference is 2πr. These formulas connect to Archimedes' famous discovery that the surface area of a sphere equals the lateral surface area of its circumscribed cylinder.
Whether you are sizing a storage tank, estimating the surface area of a ball for painting, or solving geometry homework, this tool delivers instant, accurate results with adjustable precision and unit support.
Sphere formulas are compact, but the reverse problems are where most people slow down. It is easy to compute volume from radius, but less obvious to recover radius from volume or surface area without rearranging powers and roots carefully. This calculator handles both forward and reverse calculations from a single entry point, so you can move from the quantity you know to the one you actually need.
That makes it practical for more than geometry homework. You can estimate the capacity of a ball-shaped tank, compare the paintable area of a spherical object, or convert a measured circumference into full 3D properties. The grouped outputs also highlight important relationships such as surface area being four times the great-circle area.
Volume = (4/3)πr³ Surface Area = 4πr² Diameter = 2r Great Circle Area = πr² Great Circle Circumference = 2πr Radius from Volume: r = ∛(3V / 4π) Radius from SA: r = √(SA / 4π)
Result: Volume ≈ 4188.79 cm³, Surface Area ≈ 1256.64 cm²
A sphere with radius 10 cm has volume (4/3)π(10)³ ≈ 4188.79 cm³ and surface area 4π(10)² ≈ 1256.64 cm². The great circle area is π(10)² ≈ 314.16 cm² and its circumference is 2π(10) ≈ 62.83 cm.
Most sphere calculations reduce to one decision: identify which quantity gives you the radius most directly. Once the radius is known, every other property follows immediately. Diameter is $2r$, great-circle circumference is $2pi r$, great-circle area is $pi r^2$, surface area is $4pi r^2$, and volume is $ rac{4}{3}pi r^3$. Because so many properties are radius-based, a good calculator is especially helpful when your starting value is something indirect such as volume or circumference.
The great circle is the largest possible circle you can draw on a sphere, formed by slicing through the center. Its radius is the same as the sphere's radius, which makes it a useful bridge between 2D circle geometry and 3D sphere geometry. Pilots and navigators use great-circle routes because they represent the shortest path along a spherical surface. In geometry classes, comparing great-circle area to total surface area also reveals the elegant identity that the full sphere has exactly four times the area of that central cross-section.
Sphere math appears anywhere rounded containers, balls, domes, droplets, or planets are involved. Engineers estimate storage capacity, manufacturers compute coating area, and students move between radius, diameter, and circumference in applied problems. This calculator is useful because it supports whichever measure is available first, then converts it into the full set of sphere properties without requiring you to do cube roots, square roots, or unit-based interpretation by hand.
The volume of a sphere is V = (4/3)πr³, where r is the radius. You can also express it in terms of diameter: V = (π/6)d³.
Rearrange the surface area formula: r = √(SA / 4π). Enter the surface area in the calculator and select "Surface area" mode.
A great circle is the largest circle that can be drawn on a sphere's surface. It is the cross-section through the center and has the same radius as the sphere. The equator is Earth's most famous great circle.
Archimedes proved that the surface area of a sphere (4πr²) equals the lateral area of the circumscribed cylinder, which wraps exactly four great-circle-sized discs around the sphere. Use this as a practical reminder before finalizing the result.
Yes. Select "Great circle circumference" mode, enter the value, and the calculator will derive the radius (r = C / 2π) and compute everything else.
A hemisphere is half a sphere. Its volume is (2/3)πr³ and its total surface area (curved + flat base) is 3πr². Use the sphere calculator to get the full sphere values and halve as needed.